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Facsimile
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FACSIMILEFACSIMILE
Dr. M V Raghavendra,
Dept of Electronics & Communication
Contents:Contents:
What is Facsimile
History
Standards
Basic concept
FAX Block diagram
Transmitter
Receiver
CCD
Key aspects of FAX standards
Transmission time
Facsimile data
Line transmission formats
High Resolution scanners
Advantages
Disadvantages
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WHAT IS FACSIMILE?
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Telecommunication Channel
Dr M V Raghavendra
Fax-“facsimile" (Latin word) “make copy”-is a process of
converting optical images into electrical signals for transmission
over communication systems (phone line, internet etc).
Facsimile (FAX) makes copies of a document over a
telecommunication channel anywhere in the world at the same
speed as the one the originating fax scans.
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HISTORY OF THE FACSIMILE MACHINE
• In 1843, The first fax machine was invented by Scottish mechanic and inventor
Alexander Bain.
• In 1850, a London inventor named F. C. Blakewell received a patent what he called
a "copying telegraph".
• In 1860, a fax machine called the Pantelegraph sent the first fax between Paris and
Lyon. The Pantelegraph was invented Giovanni Caselli.
• In 1902, Dr Arthur Korn invented an improved and practical fax, the photoelectric
system.
• In 1924, the telephotography machine (a type of fax machine) was used to send
political convention photos long distance for newspaper publication. It was
developed by the American Telephone & Telegraph Company (AT&T).
• In 1926, RCA invented the Radiophoto that faxed by using radio broadcasting
technology.
• On March 4, 1955, the first radio fax transmission was sent across the Atlantic.
• In 1964, Xerox Corporation introduced (and patented) what many consider to be
the first commercialized version of the modern fax machine, under the name (LDX)
or Long Distance Xerography.
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FACSIMILE STANDARDS
1. Like telephones, all faxes comply to standards set by the
International Telecommunications Union division for
Telecommunications.
2. The Specific recommendation for Facsimile is
ITU-T Rec. T.4 and
ITU-T Rec. T.30.
3. The recommendation defines the characteristics of facsimile
terminals which enable documents to be transmitted on:
a) The general switched telephone network,
b) International leased circuits
c) The Integrated Services Digital Network (ISDN).
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BASIC CONCEPT
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1. At the sending end, there an optical
sensor which read the paper.
2. Usually, a modern fax machine also has
a paper-feed mechanism so that it is
easy to send multi-page faxes.
3. The white and black spots that the
optical sensor reads are encoded they
can travel through a phone line.
4. At the receiving end, the information is
decoded and sent to the printer
which marks the paper with black (or
colour) dots (or prints).
SENDER
RECEIVER
Telephone
Channel
Dr M V Raghavendra
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FAX BLOCK DIAGRAM
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Optical
Reader
A/D
Converter
Digital Data
Compression Modulator
Telephone
Line
Demodulator
Digital data
Expansion
Printer
Head
Control
Logic
Operator
Controls
Motor Control
Circuit
Roller Drive
Motors
Printer
D/A
Converter
Data is read from
CCD row by row
Data is compressed
To remove white spaces/
Repetitive parts
FSK Modulated
Signal (Audible)
Compressed data
Is restored
Control signals
are decoded
Motors drive
• Horizontal motion
• Line feed
• Form Feed
Dr M V Raghavendra
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FAX RECEIVER
Signal is
Demodulated
Compressed data
Is restoredPrint marks are
Imparted onto paper
Motors drive
• Horizontal motion
• Line feed
• Form Feed
Control signals
are decoded
Human Operator can
manually control:
• Line feed (LF)
• Form Feed (FF)
Data received
From telephone line
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KEY ASPECTS OF THE FAX STANDARD
Scanning Track:
1. The message should be scanned in the same
direction in the transmitter and receiver.
2. Viewing the message area in a vertical plane,
the picture elements should be processed as if
the scanning direction were from left to right.
3. Subsequent scans are adjacent and below the
previous scan.
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TRANSMISSION TIME PER TOTAL CODED SCAN LINE
1. The total coded scan line is defined as
the sum of data bits plus any required
fill bits plus the end of line (EOL) bits.
2. The minimum transmission times of
the total coded scan line should be
13 milliseconds
3. The maximum mission transmission
time of any total coded scan line
should be 20 miliseconds.
4. Optional error correction is utilized to
transmit the total coded scan line.
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FACSIMILE DATA
1. A total of 1,728 picture elements represent one horizontal scan
line of 215 mm length.
2. End-of-line (EOL) is a unique code word (Format: 000000000001
(12 bits)) that can never be found within a valid line of data;
therefore, resynchronization after an error burst is possible.
3. Fill: A special word added to ensure that the transmission time of
Data, Fill and EOL is not less than the minimum transmission time
of the total coded scan line.
4. Return To Control (RTC): The end of a document transmission is
indicated by sending six consecutive EOLs. i.e. 000000000001 , . . .
. . . . . . ., 000000000001 (total of 6 times)
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FORMATS FOR A LINE OF DATA
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RTC- Return To Control used to
mark end of transmission
Data for
Line 1
Data for
Line 2
Data for
Line 3
6 EOL marks used
To indicate end of
transmission
Dr M V Raghavendra
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HIGHER RESOLUTION SCANNERS
1. A scanner scans one horizontal row of pixels at
a time, moving that scan line down the page
with a carriage motor.
2. The dpi number is the optical resolution of
the CCD sensor cells.
3. A 1200 dpi scanner takes 1200 samples per
inch (creates 1200 pixels per inch)
horizontally from the width being scanned.
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HIGHER RESOLUTION SCANNERS
1. Higher Resolution (dpi) is possible
through proper control of the
carriage stepping motor.
2. Example: A 1200x2400 dpi scanner
is geared so that each pulse of the
carriage motor moves in 1/2400 inch
steps vertically.
3. At 300 dpi, the carriage moves
eight motor steps at a time
vertically, then stops and re-
samples the scan line to 1/4 size
horizontally, to create the image. 14Dr M V Raghavendra
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Dr M V Raghavendra 15
ADVANTAGES AND DISADVANTAGES
Advantages:Advantages:
•Faxes have a distinct advantage over postal mail in that the
delivery is nearly instantaneous.
•Can be delivered at any time.
•No need to give commands of printing separately on
receiving the fax document.
Disadvantages:Disadvantages:
•Need a separate space for the machine.
•Needs a telephone line.
•Needs power/electricity
•Requires paper for receiving and sending faxes
•Aging of papers could lead to difficulties in managing records.